Mix the solution with water to dissolve the salt. Then filter the sand from the saltwater, evaporate the water from the saltwater and you will be left with the separated sand and salt.
1 Pour water on the mixture of salt and sand.
2 filter the salt water out of the sand with a filter paper.
3 evaporate the water out of the salt water, leaving only the salt.
Add water, the salt dissolves, and the sand sinks to the bottom. After that, use a filter, and pour the mixture down it. The sand should get trapped in the top and the water and salt should go to the beaker below. After that is finished, put the sand to the side. Then evaporate the water in the salt and water mix. When all the water is gone, you should be left with salt rings at the bottom, and the sand and salt are separated.
Add water, the salt dissolves, and the sand sinks to the bottom. After that, use a filter, and pour the mixture down it. The sand should get trapped in the top and the water and salt should go to the beaker below. After that is finished, put the sand to the side. Then evaporate the water in the salt and water mix. When all the water is gone, you should be left with salt rings at the bottom, and the sand and salt are separated.
Use a magnet to remove the iron filings by dipping it in the liquid. Messy but effective. Rinse the magnet and iron filings in a beaker of water or under a gently running tap to remove traces of the "inks". Filter the remaining mixture. Sand being insoluble will remain on the filter paper. Of course it will be stained by the ink so after filtering it, move the funnle and sand over another flask and rinse it by passing loads of water through it. The coloured inks will wash through leaving you nice clean sand (residue) in the filter paper. Now the problems start. The first time you filtered the mix then soluble salt (dissolved in water/ink) passed into the flask below (filtrate) along with the inks. Carrying out paper chromatography on the filtered liquid should tell you what is in the inks as they will separate out. Infact you can normally tell by looking at the filter paper you used earlier but I am sure that chromatography is the answer that is expected!!! Evaporation of the solution will produce salt - but it won't be white salt because the ink is in there with it...... so as long as you don't mind colourful salt you have your answer. To remove the ink colours from the salt solution you might be able to try this. Mix the inky salt solution with activated charcoal. This absorbs colours. Filter the mixture again and evaporate the nice colourless salt soultion to get white salt. Hope this helps!!
through salt in water and mix then put to boil the water evaporate and salt remain
Put the sand and salt mixture through a sieve. The sand should be fine enough to go through the holes of the sieve and the salt should stay in the sieve, as it is just too big for the holes.
evaporate the water
you would use a culinder
You can simply separate salt and water by distillation method.
One commonly used method to separate aluminium pieces from salt is by using a magnet. Since aluminium is not magnetic, the magnet can attract and separate the aluminium pieces from the salt. Another method is to dissolve the salt in water and then use filtration to separate the larger aluminium pieces from the saltwater solution.
Unfortunately no
that depends on the mixture for eg sand and water can be separated salt and water can't be separated
The mixture of and and water is a heterogeneous mixture. There is two steps to separate: Sedimentation: The sand will settle at the bottom of the beaker Decantation: Pour the water slowly out of the container leaving the sand behind. This water is called "supernatant" liquid.
Place the mixture in water and separate the sand from the water if you want the salt. alow the water to evaporate, and you have salt and sand separated.
EVAPORATION
sewing and grainnize
Sifting
You can simply separate salt and water by distillation method.
By evaporation (under vacuum) of the naphtalene or filtration of the sand from this mixture
One commonly used method to separate aluminium pieces from salt is by using a magnet. Since aluminium is not magnetic, the magnet can attract and separate the aluminium pieces from the salt. Another method is to dissolve the salt in water and then use filtration to separate the larger aluminium pieces from the saltwater solution.
I dont know but i believe it is crystallization.
Use a magnet to remove the iron, a filter or screen to remove the sand, and a still to remove the salt.
A mixture of sand and gravel is commonly used in construction. By using a wire mesh, the two materials can be separated.
You can dissolve the sand and salt into the water. when this happens the salt will be dissolved and the sand will stay at the bottom. then get some filter paper and pour the mixture through it. the dissolved salt and water will go through leaving the sand. there you have the sand aside. to get the salt aside just boil the water until it evaporates completely and you will be left will your salt. then you have your sand and salt separated. by sifting it
Salt may need to separated from sand so the sand can be used to make mortar for construction applications (like a brick wall). Salt in sand will "kill" the strength and resilience of brick or block mortar, and no one with any sense will use sand with salt in it to mix up cement. Bad idea. There may be other reasons for separating salt from sand. And it is probably best done by "washing out" that salt. Salt will, as you probably realize, dissolve in water and sand will not. A continuous wash with fresh water will remove most all the salt hiding in the sand.